Controversial Materials in Pediatric Dentistry: What Remains Safe Today?

In pediatric dentistry, the selection of restorative and pulpal materials must balance biocompatibility, effectiveness, and safety. Historical materials such as formocresol and dental amalgam have been debated for potential toxicity, while modern alternatives like bioactive cements (e.g., MTA, Biodentine) and adhesive restorative materials are widely accepted.

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This review synthesizes evidence on controversial dental materials and their current clinical safety status in pediatric care, providing evidence-based recommendations for clinicians.

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✅ Introduction
Dentistry for children and adolescents involves unique biological and behavioral considerations, requiring materials that are safe, effective, and minimally invasive. Materials that were historically part of pediatric practice now face scrutiny due to evolving evidence around toxicity, biocompatibility, and environmental impact. Clinicians must understand both contested and recommended materials to optimize pediatric patient outcomes.

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✅ Controversial Dental Materials in Pediatric Practice

Formocresol
Formocresol has been used as a pulpotomy medicament in primary teeth due to its bactericidal and devitalizing properties. However, concerns about formaldehyde, a hazardous compound classified as potentially carcinogenic, have led to reevaluation of its routine use in children. Evidence suggests that under low exposure conditions, formaldehyde metabolism may not pose significant carcinogenic risk, yet modern practice favors biocompatible alternatives.

Dental Amalgam
Dental amalgam, an alloy containing mercury, remains controversial due to its mercury content and perceptions of toxicity. Although organizations such as the ADA and FDA acknowledge amalgam’s longstanding safety record, its use in pediatric patients has declined, with emphasis shifting toward resin-based and glass ionomer materials in many programs due to aesthetic and minimally invasive preferences.

Bisphenol A (BPA) Derivatives
Resin-based composites and sealants may contain BPA derivatives, raising concerns about endocrine-disrupting potential. Available evidence highlights transient BPA release after placement, but the clinical benefits of resin-based materials generally outweigh potential exposure when proper techniques are followed.

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✅ Current Safe and Recommended Materials

Bioactive Cements and Vital Pulp Therapy Agents
Materials such as mineral trioxide aggregate (MTA) and Biodentine have demonstrated favorable outcomes in vital pulp therapy, promoting dentinogenesis and exhibiting high biocompatibility. These materials represent contemporary choices for maintaining pulp vitality in primary dentition.

Glass Ionomer and Resin-Based Restoratives
Glass ionomer cements offer chemical adhesion and fluoride release, aligning with minimally invasive principles, though moisture sensitivity can limit performance. Resin composites provide improved aesthetics and adaptability, yet require optimal isolation for long-term success.

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💬 Discussion
The transition away from controversial materials like formocresol and amalgam reflects a broader trend toward biocompatible and patient-centered care. While historical evidence attests to the effectiveness of certain legacy materials, modern pediatric dentistry prioritizes bioactivity, regenerative potential, and minimization of systemic exposure. Adoption of contemporary materials should be contextualized within evidence-based protocols and comprehensive risk assessment.

🎯 Clinical Recommendations
▪️ Use bioactive cements (MTA/Biodentine) for vital pulp therapy when indicated.
▪️ Prefer glass ionomer or resin-based restoratives in primary dentition, considering isolation quality and caries risk.
▪️ Avoid routine use of formocresol in pulpotomy unless alternatives are unavailable and benefits outweigh theoretical risks.
▪️ Reserve amalgam for limited situations where other materials are contraindicated, recognizing regulatory and educational trends.

✍️ Conclusion
Controversies surrounding materials in pediatric dentistry have prompted shifts toward safer, more biologically favorable options. Clinicians must remain informed by current evidence when selecting materials for restorative and pulpal procedures. While some traditional materials may still be used judiciously, modern bioactive and adhesive materials represent the safest and most effective choices for pediatric patients today.

📚 References

✔ American Academy of Pediatric Dentistry. (2025–2026). Pediatric restorative dentistry: Pediatric restorative dentistry reference manual. AAPD.
✔ Fuks, A. B. (2015). The use of amalgam in pediatric dentistry: New insights and reappraising the tradition. Pediatric Dentistry, 37(2), 125–132.
✔ Milnes, A. R. (2006). Persuasive evidence that formocresol use in pediatric dentistry is safe. Journal of the Canadian Dental Association, 72(3), 247–248.
✔ Peker, O. (2024). Contemporary dental materials used in pediatric dentistry. Dental and Medical Journal, 6(2), 70–85.

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Is Dental Amalgam Being Phased Out Worldwide?

Dental amalgam, historically known as “silver fillings”, has been used for over a century to restore carious teeth due to its durability and ease of use.

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However, concerns regarding mercury toxicity and environmental pollution have prompted regulatory action in many countries. As dental practice evolves, there is a clear global transition toward composite resins and glass ionomer cements as preferred restorative materials.

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✅ What Is Dental Amalgam?
Dental amalgam is an alloy containing elemental mercury (~50%) combined with silver, tin, copper, and other metals. Mercury acts as a binding agent, providing structural strength. Although research (including FDA and IADR assessments) acknowledges that amalgam is effective as a restorative material, environmental and potential health concerns have increasingly influenced policy decisions.

✅ Environmental and Public Health Concerns
Mercury from dental amalgam contributes to environmental pollution, especially during waste management and cremation processes, leading to bioaccumulation in water, soil, and food chains. As a result, international treaties and national regulations are phasing down or banning its use, emphasizing mercury-free alternatives.

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✅ Which Countries Have Restricted or Banned Dental Amalgam?
Many countries have taken explicit action:

▪️ European Union: The EU’s Mercury Regulation (amending EU 2017/852) will phase out dental amalgam use by January 1, 2025, with narrow exceptions for specific medical needs, and bans on export, import, and manufacture by mid-2026.
Link (EU Regulation): European Parliament & Council regulation on mercury-added products — Article 10 of EU 2017/852 (amended) https://eur-lex.europa.eu/eli/reg/2024/1849/oj
▪️ Peru: Fully banned the use of dental amalgam (Ministerial Resolution N° 859-2024-MINSA); mercury-free materials are prioritized, with very limited exceptions.
▪️ Switzerland, Liechtenstein, Iceland: Prohibit dental amalgam where mercury-free alternatives are feasible.
▪️ Japan, Bolivia, El Salvador, Paraguay, Guyana, Saint Lucia, Uruguay, Mozambique: Have withdrawn amalgam from public dental programs, effectively phasing out its use.
▪️ Senegal, Thailand, Uruguay: Are implementing programs to reduce dental mercury waste and phase down use in alignment with the Minamata Convention.
Some countries have not banned but severely restricted amalgam, especially for vulnerable populations (children under 15, pregnant or breastfeeding women) based on the Minamata Convention.

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✅ Dental Materials Transition: Composite and Glass Ionomer Systems
With stricter regulations, the dental profession is shifting toward mercury-free restorative materials:

▪️ Composite resins: Tooth-colored, adhesive materials suitable for most cavity classes.
▪️ Glass ionomer cements (GICs): Release fluoride and bond chemically to tooth structure, beneficial in high-caries risk patients.
▪️ Resin-modified glass ionomers: Combine the advantages of resin and glass ionomer chemistry for better strength and aesthetics.
These materials are increasingly supported by clinical evidence showing adequate performance and esthetics without mercury.

✅ Clinical Considerations
Dentists must balance:

▪️ Restoration longevity and function
▪️ Esthetic demands
▪️ Environmental and patient safety concerns
▪️ Local regulations on amalgam use
Patient-centered care now often prioritizes mercury-free options, with amalgam reserved only when clinically justified or permitted by specific regulations.

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💬 Discussion
The evolution of restorative dentistry reflects broader societal priorities toward environmental sustainability and patient safety. While amalgam has established a long clinical history, the availability of reliable alternatives and global regulatory momentum accelerate its decline. Dental professionals should adapt by enhancing skills in adhesive dentistry and advocating for environmentally responsible practices.

✍️ Conclusion
The phase-out of dental amalgam is advancing globally due to environmental and health concerns and international agreements such as the Minamata Convention. Dentists are increasingly transitioning to composite resins and glass ionomer systems. Understanding regulatory frameworks and material science will be essential for modern, sustainable dental practice.

🎯 Clinical Recommendations
▪️ Favor composite and glass ionomer restorations when clinically appropriate
▪️ Stay informed on national and international regulations
▪️ Educate patients on material choices and environmental impacts
▪️ Ensure compliance with amalgam separator and waste management protocols
▪️ Adopt minimally invasive caries management to reduce restorative needs

📊 Comparative Table: Dental Amalgam vs Mercury-Free Restorative Materials

Aspect	Advantages	Limitations
Durability	Proven long-term clinical track record	Contains mercury; environmental disposal issues
Esthetics	Excellent (tooth-colored composites)	Amalgam is metallic and visible
Biocompatibility	Mercury-free materials reduce patient concern	Composite may be technique-sensitive
Environmental Impact	No mercury-related pollution	Amalgam contributes to mercury waste
Fluoride Release	Glass ionomers release fluoride	Amalgam does not

📚 References

✔ IADR. (2025). Safety of Dental Amalgam and Mercury Policy Review. International Association for Dental Research.
✔ European Parliament & Council. (2024). Amendment to Mercury Regulation (EU 2017/852) — Dental Amalgam Provisions. EU Official Journal.
✔ EnvMed Network. (2025). Countries Phasing Out Dental Amalgam.
✔ Environmental Medicine. (2025). Global Dental Amalgam Tracker.
✔ Environmental and Health Perspectives. (n.d.). Mercury Contamination from Dental Amalgam.

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